University of Sheffield Alcohol Minimum Price Modelling Research: Second Update

Transcription

1 MODEL-BASED APPRAISAL OF ALCOHOL MINIMUM PRICING AND OFF-LICENSED TRADE DISCOUNT BANS IN SCOTLAND USING THE SHEFFIELD ALCOHOL POLICY MODEL (v 2):- SECOND UPDATE BASED ON NEWLY AVAILABLE DATA JANUARY 2012 ScHARR, University of Sheffield. 1

2 AUTHORSHIP Modelling team: Dr Yang Meng, Mr Daniel Hill-McManus, Professor Alan Brennan Principal investigator: Professor Petra Meier CONFLICTS OF INTEREST The authors have no conflicts of interest. ACKNOWLEDGMENTS ScHARR would like to thank: Frank Dixon and colleagues at the National Records of Scotland for preparing and providing mortality data; Joanne Anderson and colleagues at the Information Services Division Scotland for preparing and providing person specific hospitalisation data, and Julie Ramsay and colleagues at the Scottish Government for providing access to the Scottish Health Survey data for We also thank Crispin Acton at the UK Department of Health for providing access to market research data procured from CGA Strategy, and the Department for Environment, Food and Rural Affairs for providing access to the low-level Living Costs and Food Survey data (previously known as the Expenditure and Food Survey). The original data creators, depositors or copyright holders, the funders of the Data Collections (where different) and the UK Data Archive bear no responsibility for the analysis and interpretation of the Living Costs and Food Survey, Labour Force Survey, and Offending and Justice Survey data sets downloaded from the Economic and Social Data Service and used in this study. 2

3 EXECUTIVE SUMMARY SCOPE OF RESEARCH In 2009, ScHARR developed an adaptation of the Sheffield Alcohol Policy Model for the population of Scotland. The findings of this original modelling work were published in September 2009 (Purshouse et al, 2009b). A first update using more up to date evidence was published in April 2010 (Meng et al, 2010). Since this time, a series of more recent datasets have become available. These include: New adult consumption data from the Scottish Health Survey (SHeS) is available for 2010 (the data in the previous model relates to 2008). New purchase data from the Living Costs and Food Survey (LCF), previously known as the Expenditure and Food Survey (EFS) is available for 2006 to 2009 (the data in the previous model relates to 2001/2 to 2005/6). The Scottish Government has also procured market research data on the 2010 price distribution of off-trade alcohol (in terms of ethanol content) in Scotland from The Nielsen Company. New mortality data is available for New person specific hospitalisation data is available for 2009/10. Police recorded crime statistics and the Scottish and Justice Survey (SCJS) data is available for 2009/10. The Labour Force Survey data is available for The requirement of this research project was to update the previous Scotland model with the new data to provide revised estimates of the effects of current proposals for minimum pricing and prohibition of off-trade discounting. The technical details of the methodology have not been changed. Therefore the methods section (Chapter 2) of the original published report has not been reproduced in full. The set of policies analysed remains the same as in the original research: 1. What are the likely effects of introducing a minimum unit price on alcohol consumption, sales, health, crime and workplace harms in Scotland? 3

4 2. What are the likely effects of introducing a ban on price-based promotions in the offlicensed trade in Scotland? 3. What are the likely effects of introducing a minimum unit price and a ban on pricebased promotions in the off-licensed trade simultaneously in Scotland? 4

5 SUMMARY OF MODEL FINDINGS Overview M1. This updated report, which incorporates data on alcohol consumption from the 2010 SHeS, purchase data from the LCF 2001/2 to 2009, market research data on the 2010 price distribution of off-trade alcohol, and updated mortality (2010), person specific hospitalisation (2009/10), crime (2009/10) and workplace (2010) statistics, shows results which are broadly similar to those presented in the previous April 2010 report. M2. Increasing levels of minimum pricing show steep increases in effectiveness. Minimum Unit Price % change in consumption Minimum Price (only) Minimum Unit Price plus Discount Ban 25p -0.1% -3.2% 30p -0.4% -3.4% 35p -0.8% -3.7% 40p -1.9% -4.6% 45p -3.5% -6.0% 50p -5.7% -7.8% 55p -8.3% -10.0% 60p -11.1% -12.5% 65p -14.0% -15.1% 70p -16.9% -17.9% M3. A total ban on off-trade discounting is estimated to change overall consumption by -3.0%. Note that the total ban is assumed to prohibit all forms of price-based promotion, including straight discounting from list price in addition to multi-buy offers. Less restrictive types of ban have not been appraised because the market research data available to the study does not differentiate between types of price-based promotion. Scotland implemented a quantity-based discount ban (on offers such as 5

6 buy three for the price of two ) in October The results reported here may therefore overestimate the effectiveness of the policy. M4. At lower minimum price thresholds, the combined effect of an off-trade discount ban and a minimum price is close to the individual effects of the two polices added together. At higher minimum price thresholds, the marginal increased effectiveness of an off-trade discount ban is reduced. Changes in levels of health, crime and workplace harm M5. Low minimum price thresholds (e.g. 25p per unit) have little impact in reducing harmful outcomes. M6. As the minimum price threshold increases, alcohol-related hospital admissions and deaths are estimated to decrease. For example, a 30p threshold plus discount ban is estimated to reduce annual hospital admissions by 3,700 at full effect, compared to 5,100 and 8,600 for 40p and 50p minimum price thresholds, respectively. Regarding mortality, a 30p threshold plus discount ban is estimated to reduce annual deaths by 183 at full effect, compared to 249 and 427 for 40p and 50p minimum price thresholds, respectively. The majority of the health harm reductions are for chronic diseases. Most of the prevented deaths occur in harmful drinkers 1 as defined in the model. M7. As the minimum price threshold increases, alcohol-related crimes are estimated to decrease: for example, -2,900 offences per annum for a 40p threshold (with discount ban) compared to -4,700 offences per annum for a 50p threshold (with discount ban). reductions take place across the spectrum of violent crime, criminal damage and acquisitive crimes. M8. -related harms are estimated to be reduced proportionately less than healthrelated harms: e.g. for a 40p minimum price with discount ban, hospital admissions at full effect are estimated to decrease by 7.8% whilst crimes decrease by 1.7%; and for 1 In the Sheffield Alcohol Policy Model, moderate drinkers are defined as men/women who consume no more than 21/14 units per week, hazardous drinkers are defined as men/women consuming between 21/14 and 50/35 units per week, harmful drinkers are defined as men/women consuming more than 50/35 units per week. 6

7 a 50p minimum price with discount ban, hospital admissions and crime at full effect are estimated to decrease by 13.3% and 2.9% respectively. This occurs because the population sub-groups most associated with alcohol-related crime younger male drinkers consume a greater proportion of their alcohol in the on-trade sector when compared to the population average, and therefore are less affected by policies such as minimum pricing which have a greater impact in the off-trade sector. M9. As the minimum price threshold increases, absenteeism from work is estimated to decrease: a minimum price of 40p with discount ban is estimated to reduce days of absence from work by approximately 28,800 per annum, whereas for 50p the reduction is estimated to be 46,800. M10. As the minimum price threshold increases, unemployment due to alcohol problems is estimated to decrease (in the model unemployment is a risk factor only for harmful drinkers). For a 40p threshold (with discount ban), 900 avoided cases of unemployment are estimated per annum; for 50p the figure is 1,500. Note that the estimated unemployment effects are based on evidence of association studies, rather than detailed prospective analysis of the dynamic effects of employed people becoming unemployed as a consequence of their drinking behaviour, or of unemployed people becoming employed again as a consequence of reductions in alcohol consumption. The estimated effects make no assumption about the direction of these processes and there is no analysis of how the current economic climate might affect these findings. Changes to consumer spending and retailer revenue M11. Consumer spending is estimated to increase under all policies. For example, under a combined 40p minimum price with discount ban policy, overall spending increases by 3.7%; for a 50p minimum price with discount ban policy, overall spending increases by 5.2%. M12. Retailer revenue from the sale of alcoholic beverages is estimated to increase under all policies: the model predicts increases in both off-trade and on-trade sectors (excluding duty and VAT). Higher minimum prices lead to greater additional retail revenues; however the model does not provide a breakdown of the revenue across the supply chain. For a 40p minimum price with combined discount ban, total retailer revenue is estimated to increase by 83m per annum; and for a 50p minimum price 7

8 with combined discount ban, total retailer revenue is estimated to increase by 125m per annum. M13. Effects on VAT and duty receipts are estimated to be relatively small, due to the counter-balancing nature of the two taxes: duty is applied to the volume of sales (which is reducing overall) but the VAT is applied to the monetary of sales (which is increasing overall). For a 40p minimum price plus discount ban, total receipts are estimated to reduce by 7m; and for a 50p minimum price plus discount ban, total receipts are estimated to reduce by 16m. Valuation of harm reductions M14. As the minimum price threshold increases, the financial of harm reductions increases 2 : the overall cumulative discounted financial of harm reduction over ten years is estimated at 737m for a 40p minimum price plus discount ban policy; this valuation nearly doubles for a 50p threshold ( 1.2bn). The valuation continues to increase steeply as the threshold is increased. M15. The largest financially d component of harm reduction is the estimated impact on health-related quality of life: for example, just over half of the total 1227m harm reduction in the 50p minimum price plus discount ban scenario is from the financial valuation of health quality adjusted life years (using 50,000 per ). M16. As the minimum price threshold increases, crime are reduced: for example, direct of crime reduce by approximately 20m over 10 years for a 40p minimum price plus discount ban compared to 32m for a 50p threshold. Similarly the of quality adjusted life years lost by victims of crime changes from around 17m to 27m (using 81,000 per ). Policy effects on different population sub-groups M17. Those who buy the most alcohol are the most affected in both absolute and relative terms: changes in spending affect mostly harmful drinkers, with hazardous drinkers 2 The financial valuation includes direct health and social care cost savings, direct savings to the criminal justice system and victims, a financial attribution to the savings in quality adjusted life years ( 50,000 for health-related s and 81,000 for crime-related S), and absence and unemployment savings based on average earnings. 8

9 somewhat affected and spending for moderate drinkers affected very little. For example, for a 40p minimum price in combination with an off-trade discount ban, extra spending per drinker per annum for moderate, hazardous and harmful drinkers is estimated at 8, 45 and 111 respectively (corresponding to an average additional spend per week of 0.15 for moderate drinkers, 0.86 for hazardous drinkers and 2.13 for harmful drinkers). For a 50p minimum price combined with a discount ban, the figures for moderate, hazardous and harmful are estimated at 11, 65 and 148 respectively which equates to an additional spend per week of 0.22, 1.25 and M18. For all minimum price scenarios, with or without the presence of an off-trade discount ban, the majority of the health and healthcare benefits come from the harmful drinking group (e.g. 51% of the reduction in hospital admissions estimated for a 50p minimum price plus discount ban policy) even though these represent a small minority (5% and 3% for male and female respectively) of all drinkers. M19. Reductions in crime are spread more evenly between the three drinker groups than for health-related outcomes. For example, for a 40p minimum price plus off-trade discount ban, the reduction in crime volumes per annum is estimated to comprise 800 from moderate drinkers, 800 from hazardous drinkers and 1,100 from harmful drinkers. The equivalent figures for a 50p minimum price plus discount ban are 1,300, 1,300 and 1,900 fewer crimes per annum. M20. The absolute contribution of the three drinker groups to reductions in days of absence is spread evenly across groups, for example, a 40p minimum price plus off-trade discount ban has an estimated reduction in absenteeism of 11,700 days p.a. for moderate drinkers, 8,300 for hazardous drinkers and 8,600 for harmful drinkers. The equivalent figures for a 50p minimum price with discount ban are 18,300, 13,700 and 14,500 fewer days of absence per annum. All reductions in unemployment arise from the harmful drinking group (since only this group is assumed in the model to be at risk of alcohol-attributable unemployment). M21. The majority of the estimated financial of harm reduction comes from the reduction in harms associated with harmful drinkers. Of the 737m and 1227m estimated of harm reduction for a 40p and 50p minimum price in combination with a discount ban, just over half ( 402m and 656m respectively) is from harmful drinkers. 9

10 Comparison of previous and updated modelling results M22. Compared to the SHeS 2008, the SHeS 2010 data suggest a slight reduction in mean alcohol consumption at the total population level. This is not the case for each age/sex group, with consumption for those over the age of 65 for male and over the age of 75 for female increasing. The consumption of all beverage types (beer/cider, wine, sprit and RTD) decreased. The proportion of the population who are harmful and hazardous drinkers decreased as did the mean consumption for all drinker types (moderate/hazardous/harmful) and gender groups, except for male harmful drinkers. M23. The market research data available from Nielsen shows price distributions for offtrade alcohol which are marginally different from those estimated in our April 2010 report. Average prices paid are slightly higher, and the proportion of alcohol purchased which is bought inexpensively, for example at a price below 45p per unit, is slightly lower than in the April 2010 report. For example, the proportions of alcohol sold below 45p for off-trade beer/cider, wine and spirit, decreased from 72%, 53% and 76% to 69%, 48% and 72% respectively. M24. The combined effect of the two points above is that the estimated effects of a particular policy are slightly smaller in this updated report both in terms of effects on alcohol consumption (e.g. 4.6% instead of 5.1% consumption reduction for a 40p minimum price combined with an off-trade discount ban; and 7.8% instead of 8.7% for a 50p minimum price combined with an off-trade discount ban) and the various measures of impact on alcohol-related harm. 10

13 1 INTRODUCTION 1.1 BACKGROUND In 2009, ScHARR developed an adaptation of the Sheffield Alcohol Policy Model for the population of Scotland. This modelling work Model-based appraisal of alcohol minimum pricing and off-licensed trade discount bans in Scotland A Scottish adaptation of the Sheffield Alcohol Policy Model version 2 was published in September 2009 (Purshouse et al, 2009b). This model will be referred to as the original model or the original report hereafter in this report. A first update using more up to date evidence was performed and the modelling work Model-based appraisal of alcohol minimum pricing and off-licensed trade discount bans in Scotland using the Sheffield Alcohol Policy Mode (v 2): an update based on newly available data was published in April 2010 (Meng et al, 2010). This model will be referred to as the previous model or previous report hereafter in this report. Since this time, new adult consumption data from the Scottish Health Survey (SHeS) has become available for 2010 (the data in the previous model relates to 2008). New purchase data from the Living Costs and Food Survey (LCF), previously known as the Expenditure and Food Survey (EFS), has become available for 2006 to 2009 (the data in the previous model relates to 2001/2 to 2005/6). The Scottish Government has also procured market research data on the 2010 price distribution of off-trade alcohol (in terms of ethanol content) in Scotland from The Nielsen Company. Regarding new data on alcohol-related harms, new mortality data is available for 2010 and new person specific hospitalisation data is available for 2009/10. Police recorded crime statistics and the Scottish and Justice Survey (SCJS) data are now available for 2009/10 and the Labour Force Survey data are now available for Since the model was last updated in 2010 the Scottish Parliament has passed the Alcohol etc. (Scotland) Act The Act which came into force on 1 October 2011, introduced an off-trade quantity discount ban (such as 3 for 2 and 3 bottles for 10 ) but did not explicitly ban straight discounts from list price. In this respect, the modelling results presented in this report go beyond what was implemented in Scotland. The potential implications of this are considered in the limitations section of the report. The requirement of the new research was to update the previous Scotland model with the new data to provide revised estimates of the effects of current proposals for minimum pricing and prohibition of off-trade discounting. 13

14 1.2 RESEARCH QUESTIONS ADDRESSED The set of policies analysed remains the same as in the original research: 1. What are the likely effects of introducing a minimum unit price on alcohol consumption, sales, health, crime and workplace harms in Scotland? 2. What are the likely effects of introducing a ban on price-based promotions in the offlicensed trade in Scotland? 3. What are the likely effects of introducing a minimum unit price and a ban on pricebased promotions in the off-licensed trade simultaneously in Scotland? 14

15 2 METHODS This section outlines the changes to the methods from the original and the previous Scotland model. These relate to changes in the sources of raw data and subsequent intermediate methodologies to derive parameters for the model (see Table 2.1). Note that no structural changes have been made to the Scotland model. For details of the original research methodology, please refer to Purshouse et al (2009b) and Meng et al (2010). Changes have arisen in the following areas of modelling: Model area Raw data change Derived model parameters refresh only Derived model parameters change to methods Prices Consumption Health harms harms Workplace harms Table 2.1: Summary of modelling changes in this update 2.1 PRICES In the latest version of the model for England (Purshouse et al, 2009a), the price distributions for beer/cider, wine, spirit and RTD in both the off-trade and on-trade, were based on English purchasing data from the LCF/EFS 2001/2 to 2005 adjusted to match, at the total population level, England & Wales sales data from The Nielsen Company and England-only data from CGA Strategy (The Nielsen Company, 2008; CGA Strategy, 2009). In the original Scottish adaptation of the model, sales data for Scotland was not available to the research team and so the price distributions in the model were based on the English distributions but adjusted, again at the total population level, for the differences between the LCF/EFS prices in England and Scotland (see Purshouse et al (2009b) for further details). Note that sales data is generally regarded as more accurate than purchasing data (which is older and based on self-reports), but is limited in that it provides no information on who purchases the alcohol (e.g. in terms of age, sex, or level of consumption). In the previous model, sales data in 16 price bands for the off-trade in Scotland was available to the research team (The Nielsen Company, 2009). Therefore, only Scotland-specific data, both the LCF/EFS and Nielsen data, was used for the off-trade sector. Now, additional LCF/EFS data is available for and new off-trade sales data is available for 2010 (The Nielsen Company, 2010). In this model update, the same 15

16 methodology of the previous model is used for off-trade sector but using the updated LCE/EFS 2001/2 to 2009 and Nielsen 2010 data. For the on-trade sector, Scotland-specific sales data in price bands is not available. However, due to the increase in the LCF/EFS Scotland on-trade sample size (from 6,800 to 11,200), Scotland-specific LCF/EFS data is used in this model update as the basis of the price distributions (England LCF/EFS on-trade data were used in the original and the previous models and the data was adjusted to England on-trade sales data and the differences between the LCF/EFS prices in England and Scotland). In the model, the England on-trade sales data was adjusted based on the differences between the LCF/EFS on-trade prices in England and Scotland and then this revised Scotland on-trade sales data is applied to adjust the Scotland-specific LCF/EFS data. Finally, the on-trade price data was brought in line with the Scotland mean price per unit for on-trade beer/cider, wine, spirit and RTD (The Nielsen Company, 2010) Off-trade price distribution There are two main stages for incorporating the data into the model: pre-processing and calibration of LCF/EFS prices. These stages are described below Pre-processing The Nielsen price data is described across a set of 25 product categories (e.g. dark rum, golden rum, etc) and 5 broad categories (e.g. beer) in terms of 16 price ranges (defined in terms of per unit). The sales volume (in litres of pure alcohol) is provided. For modelling purposes, the distributions must be aggregated to the four beverages of beer/cider, wine, spirit and RTD. The matching of Nielsen product categories and the modelled categories is summarised in Table

18 same calibration method is used as in Purshouse et al (2009a): the population-level LCF/EFS cumulative price distribution is linearly interpolated so that it matches the known price points available from Nielsen (15 in this case). The maximum and minimum prices in the distribution remain unchanged since Nielsen does not provide these s. In the model, the distribution is then decomposed into its constituent population subgroups. Since the Scottish LCF/EFS sample size is small in relation to the overall LCF/EFS (around one tenth of the English sample size), issues arise where, for some subgroups, there are insufficient price observations to adequately describe the price distributions. This remains an issue even when the sample size is almost doubled due to the availability of LCF/EFS data. As in the previous model, in order to increase the sample size, the original eight age groups are merged into three, which are years (originally 16-17, and years) years (originally and years) and 55+ years (originally 55-64, and 75+ years). Note that the merging of age-groups is applied to both off-trade and on-trade price distributions but does not affect subgroup definition for alcohol consumption Comparison of estimated distributions The off-trade price distributions used in the previous and the new model, and the distributions based on the raw LCF/EFS Scotland data are shown in Figure 2.1. In general, prices paid for off-trade alcohol are higher in the new model as the distributions shift to the right, and the proportion of alcohol purchased which is bought inexpensively, for example at a price below 45p per unit, is lower in the new model. Table 2.3 compares the proportions of off-trade alcohol sold below 45p in the new and the previous models for beer/cider, wine, spirit and RTD. Model category Previous model New model Off-trade beer 71.9% 68.5% Off-trade wine 53.3% 48.3% Off-trade spirit 76.0% 72.2% Off-trade RTD 2.8% 1.7% Table 2.3: Comparison of the proportions of off-trade alcohol sold below 45p per unit 18

20 2.1.2 On-trade price distribution There are three main stages for deriving the on-trade price distributions for the model: adjusting England sales data to derive Scotland distributions, calibration of Scotland LCF/EFS prices, and adjusting to Scotland high level mean prices per unit data. These stages are described below Adjustment of England sales data Since Scotland-specific sales data by price bands is not available, the England on-trade sales data (CGA Strategy, 2009) was adjusted based on the differences between the LCF/EFS on-trade prices in England and Scotland. The CGA price data was available in 20 price bands (defined by 19 price points) from below 50p per unit to more than 2.50 per unit. Firstly, the price points are inflated to 2010 prices using alcohol specific retail price indices. Then, the relative differences between the LCF/EFS on-trade prices in England and Scotland for these 19 price points were applied to adjust the inflated price points. For example, for the price point of 1 per unit, the inflated price point for on-trade beer is 1.07 and 41% of ontrade beer was sold below this price according to the CGA sales data. For the same percentile (i.e. 41%), the corresponding prices are 0.96 and 0.97 for England and Scotland respectively, based on LCF/EFS data (both inflated to 2010 prices) and the relative difference as the ratio of Scotland price to England price is 1.01 (0.97 divided by 0.96). This ratio is then applied to the CGA inflated price point of 1.07 to get the revised Scotland price point which is 1.08 (1.07 multiplied by 1.01). This procedure is repeated for each of the 19 price points for on-trade beer/cider, wine, spirit and RTD. Figure 2.2 shows price distributions of England and Scotland based on LCF/EFS data, the England CGA price distributions, and the derived Scotland on-trade price distributions. 20

22 Calibration of prices In this step, the Scotland on-trade sales data, derived in the previous step, is used to adjust the Scotland-specific LCF/EFS data. The same calibration method is used as for the off-trade (see Section ) Adjustment to Scotland mean prices Because high level sales mean prices per unit of on-trade beer/cider, wine, sprit and RTD are available for Scotland (The Nielsen Company, 2010), the final step is to adjust the price data from the previous step to be in accordance with these mean prices. The adjustment factors for this step are shown in Table 2.4. Beverage type Mean price from the previous step ( per unit) Nielsen 2010 mean price ( per unit) Adjustment factor Beer/cider % Wine % Spirit % RTD % Table 2.4: On-trade price adjustment factors Comparison of estimated distributions The final on-trade price distributions used in the new model and the previous model are shown in Figure 2.3. Please note that compared to off-trade alcohol prices, prices in the ontrade sector are significantly higher, for example, less than 0.5% of on-trade alcohol is sold below 40p per unit in both the new and the previous model. Therefore, minimum pricing policies will have limited impact on on-trade prices compared to off-trade prices. Policies restricting off-trade promotions will have no direct impact on the prices in the on-trade. 22

24 2.1.3 Off-trade price-based promotion The Scottish Government does not hold market research data on the distribution of pricebased promotions in supermarkets and off-licences. Therefore the same assumption is made as in the previous model: that the Scottish market is characterised by the same pattern of offtrade discounting as the English market, in terms of the cumulative price distribution, using Nielsen Grocery Multiples data for England & Wales. Since the Scottish off-trade price distribution has been updated, this requires a new mapping to the 10 price ranges available for the England & Wales data. The mapping, for each of beer/cider, wine, spirit and RTD, is shown in Appendix 1. The Alcohol etc. (Scotland) Act 2010 came into force on 1 October 2011 and introduced an off-trade quantity discount ban (such as 3 for 2 and 3 bottles for 10 ) but did not explicitly ban straight discounts from list price. All the model inputs predate the introduction of the Act and the available England & Wales off-licences discount data does not allow us to separate quantity discount ban from straight list price discounts. The potential implications of this are considered in the limitations section of the report. 2.2 CONSUMPTION Two population surveys provide baseline levels of consumption for the model SHeS for subgroups aged 16 and over, and the Scottish Schools Adolescent Lifestyle and Substance Use Survey (SALSUS) for the 11 to 15 year old subgroups 3. The previous model used data from 2008 for SHeS and SALSUS. However, data from the SHeS 2010 is now available and has been used as the new baseline in the model. The baseline consumption for the year old subgroups has not changed as SALSUS 2010 was not available at the time of writing Scottish Health Survey Figure 2.4 and 2.5 present the distributions of weekly mean and peak day alcohol consumption for males and females in Scotland based on the latest consumption data from SHeS The 2010 age and gender-specific distributions of alcohol consumption for adults (18+ years) in Scotland are presented in Appendix 2. 3 SALSUS predominantly sample 13 and 15 year olds, although some 12 and 14 year olds are also sampled. 24

26 Figures 2.6 and 2.7 compare the average consumption in SHeS 2008 and 2010 by beverage type for men and women, respectively. Figures 2.8 and 2.9 compare the average consumption in SHeS 2008 and 2010 by age group for men and women, respectively. Figures 2.14 to 2.17 compare the proportion of moderate, hazardous and harmful drinkers and the average consumption in SHeS 2008 and 2010 by these drinker groups for men and women. Compared to the SHeS 2008, the SHeS 2010 data show a general reduction of alcohol consumption at the population level for all four modelled beverage types (note that market research Nielsen data shows a stable consumption pattern between 2008 and 2010 at the population level in Scotland and details of the data is shown in Table 2.10 and Figure 2.18). Despite the overall reduction of consumption at the population level, the consumption of those over the age of 65 for men and over the age of 75 for women has increased. The comparison also shows a significant decrease of mean consumption for younger age groups under the age of 25. To examine longer term trend for these young age groups, SHeS 2003 and 2009 are included in the comparison and the results are shown in Figure 2.10 and It appears that high average consumption for in SHeS 2008 is an outlier, especially for women. Figure 2.12 and 2.13 show the confidence intervals of the mean consumption estimates for the 18 to 24 year olds for the 4 survey years. The confidence intervals do not overlap between SHeS 2008 and SHeS 2010 for both male and female 18 to 24 year olds which indicates statistically significant differences between 2008 and In the SHeS 2010 the proportions of harmful and hazardous drinkers are lower than in 2008 and the mean consumption has decreased for all drinker and gender subgroups, except for male harmful drinkers whose consumption has increased. 26

27 Figure 2.6: Comparison of average consumption over 4 beverage types for men (16+ years) between SHeS 2008 and 2010 Figure 2.7: Comparison of average consumption over four beverage types for women (16+ years) between SHeS 2008 and

28 Figure 2.8: Comparison of average consumption by age group for men (16+ years) between SHeS 2008 and 2010 Figure 2.9: Comparison of average consumption by age groups for women (16+ years) between SHeS 2008 and

29 Figure 2.10: Comparison of average consumption by age groups for men (16+ years) between SHeS , 2008, 2009 and 2010 Figure 2.11: Comparison of average consumption by age groups for women (16+ years) between SHeS 2003, 2008, 2009 and We applied revised conversion factors based on the study undertook by the Office for National Statistics (Goddard, 2007) to derive alcohol consumption for SHeS 2003 because the SHeS uses the same updated methodology from SHeS

30 Figure 2.12: Comparison of mean and confidence intervals of weekly consumption for 18 to 24 year old male between SHeS 2003, 2008, 2009 and 2010 Figure 2.13: Comparison of mean and confidence intervals of weekly consumption for 18 to 24 year old female between SHeS 2003, 2008, 2009 and

32 Figure 2.16: Comparison of average consumption by drinker groups for men (16+ years) between SHeS 2008 and 2010 Figure 2.17: Comparison of average consumption by drinker groups for women (16+ years) between SHeS 2008 and

33 2.2.2 Regression model linking mean consumption to peak consumption Since the price elasticities used in the model relate a change in price to a change in mean consumption, further modelling is required to estimate the effects on peak daily consumption (the proxy measure for heavy episodic drinking). As described in Purshouse et al (2009b), this is achieved by estimating an average relationship between relative change in mean consumption and relative change in peak consumption at subgroup level. The same methodology is applied in the new model, but using the SHeS 2010 consumption data. The resulting model parameters are shown in Appendix HEALTH HARMS Mortality rates for 2010 calendar year and person specific hospitalisation rates for 2009/10 financial year were available from the Scottish Government for the 50 conditions used in the model, and have been applied as the new baseline. Table 2.5 and 2.6 compare the model inputs of the baseline total number of mortalities and person specific hospital admissions (including both alcohol attributable and non-alcohol attributable cases) in the new and the previous models, broken down by gender and different types of health conditions. The full list of health conditions and the classification of these conditions was presented in Table 2.6 of the original report. Total baseline deaths related to conditions which are classified with 100% alcohol attributable fraction (AAF) decreased by 3% and 12% for acute and chronic conditions respectively. There also has been a 6% decrease of baseline deaths related to partially attributable chronic conditions such as liver disease and various cancers. The number of baseline deaths related to partially attributable beneficial chronic conditions, including coronary heart disease and cholelithiasis, decreased by 8%. For person specific hospital admissions, there has been a slight decrease for 100% alcohol attributable admissions. Risk functions for all acute and wholly attributable chronic conditions have been reestimated. For partially attributable chronic conditions, the risk functions from the literature continue to be used. The parameter estimates are provided in Appendix 4. 33

35 2.4 CRIME HARMS The availability of 2009/10 crime data for Scotland provides an opportunity to revise the modelling assumptions around the baseline volumes of alcohol-related crime: 1. Baseline recorded crime volumes The same crime categories in the previous model are used, but the baseline recorded crime volumes are based on the latest crime statistics in 2009/10 (Scottish Government, 2010). 2. Multipliers The same method and assumptions to estimate crime multipliers in the previous model are used. The multipliers in the new model are estimated from the SCJS 2009/10 whenever possible. As in the previous model, shoplifting and total sexual offences continue to use the multipliers derived for the England model because relevant multipliers are not available from the SCJS. The baseline police recorded crime volumes and multipliers used in this version and a comparison with the previous model are shown in Table 2.7. Overall, using the new data results in lower baseline crime volumes (-6.1%). Based on the updated baseline total crime volumes, Appendix 5 presents the breakdown of total estimated offences by age and gender in Scotland. The updated relative risk functions are provided in Appendix 6. 35

37 2.5 WORKPLACE HARMS New model inputs have been extracted using the Scottish records in the LFS 2010 for absence rates, number of days worked per week, annual gross income and working rates (see Table 2.8). The risk functions for absenteeism and unemployment were also reestimated using the updated baseline mean and peak consumption levels. The updated parameters for the risk functions are shown in Appendix 7. 37

39 2.6 SENSITIVITY ANALYSIS The original and the previous analyses of pricing policies included a set of sensitivity analyses that attempted to account for the uncertainty in the representation of both current alcohol purchasing and consumption in Scotland and how price changes might influence consumer behaviour. Key uncertainties around the relationship between alcohol consumption and the population-level risk of coronary heart disease, between alcohol consumption and population-level risk of crime, and the preferences for off-trade consumption were also explored. In this study, all previous sensitivity analyses were rerun using the updated model inputs and the results are reported in Section Preferences for off-trade consumption For each subgroup and beverage type, the proportion of the total consumption occurring in each of the on-trade and off-trade is based on the LCF/EFS purchasing data. Alternative evidence for Scotland on the on/off-trade split based on The Nielsen Company data for the year 2010 has been made available. An updated comparison with the LCF/EFS data is shown in Table 2.9. Beverage type Scotland preference for off-trade alcohol (via LCF/EFS) Scotland preference for off-trade alcohol (via Nielsen) Beer/cider 51.7% 51.3% Wine 90.4% 78.5% Spirit 87.8% 76.6% RTD 52.2% 70.1% Total 72.6% 66.8% Table 2.9: Comparison of preferences for off-trade alcohol between LCF/EFS and Nielsen data sources The reason for the discrepancy between LCF/EFS and the Nielsen off-trade preferences is not fully understood. The Nielsen data is based on a combination of census and survey data, whilst the LCF/EFS data is based on a 14-day purchasing diary. One hypothesis is that the modelling assumption that two weeks purchasing in the LCF/EFS is equivalent to two weeks consumption is not always appropriate for the off-trade sector; a second hypothesis could be that off-trade purchasing is recorded more accurately (e.g. via till receipts) than on-trade consumption (e.g. which is subject to memory recall). It is recognised that recall methods tend to underestimate actual consumption levels. 39

40 The impact of using the alternative Nielsen evidence has been tested by proportionately adjusting all subgroup off-trade preferences to reflect the alternative overall preferences shown in Table Adjustment for unrecorded consumption in survey data The most reliable source of information on alcohol consumption is usually considered to be data on average per capita consumption derived from official production, sales and/or customs figures (e.g. HMRC customs data for the UK, Nielsen sales data for Scotland) (Gmel and Rehm 2004). The main alternative, weighted and grossed data from populationwide surveys (e.g., SHeS) is known to substantially underestimate population level alcohol consumption (Nelson et al, 2010). The Sheffield Alcohol Policy Model requires individuallevel data on consumption patterns for different subgroups defined by gender, age and drinking level rather than just population-level averages, and this can only be obtained from survey data. We have not previously corrected the survey data for under-coverage, primarily because of the formidable practical challenges in doing this and the lack of available methodologies in the wider literature. Recently, however, researchers have proposed a method to adjust survey consumption using a method based on the gamma distribution (Rehm et al, 2010). The key steps of performing this sensitivity analysis include: Adding missing populations (e.g. homeless) into the SHeS Adjustment of under-represented populations (e.g. student and dependent drinkers) in SHeS Other adjustments to the SHeS 2010 to account for other biases (e.g. pouring size of off-trade spirit) Calibration of the revised SHeS 2010 to Nielsen 2010 sales data using the gamma function. Detailed methodology of the adjustment of survey consumption and the calibration of survey consumption to sales data is presented elsewhere (Meier et al, 2011). The full paper is available on request. Three main assumptions need to be made when using this approach: that 1) the customs or sales data provide an accurate reflection of the true per capita consumption, 2) there is no differential under-coverage, i.e. that the overall coverage rate for the survey applies to all modelled subpopulations and 3) the proportion of abstainers as derived from the survey reflects the true proportion of current abstainers (as only known drinkers can be shifted). 40

41 Differences between survey consumption and per capita sales data Table 2.10 and Figure 2.18 compare the Scottish per capita consumption estimated from the Nielsen sales data (i.e. the gold standard ), the SHeS and the Scottish records in the GLF/GHS for 2003, 2008, 2009 and The coverage of the SHeS and the GLF/GHS is also shown in the table. There are significant differences in per capita consumption estimates between the sales data and the survey data, with the coverage of the SHeS ranging from 51% to 63% and the GLF/GHS ranging from 46% to 53%. There also appears to be a general trend of decreasing survey coverage over time. For example, from 2008 to 2010, the per capita consumption based on the Nielsen sales data remains largely unchanged while the consumption in the SHeS shows a steady decrease during this time period. Year Nielsen sales data (units per week) SHeS survey (units per week) Coverage GLF/GHS survey (units per week) Coverage % % % % % % % n/a n/a Table 2.10: Comparison of Scotland per capita consumption in Nielsen sales data, SHeS and GLF/GHS Figure 2.18: Comparison of Scotland per capita consumption between Nielsen sales data and SHeS 41

42 Adjustment of survey consumption The SHeS is a sample of private households. Thus, many populations are excluded from the sampling frame in particular (i) elderly people living in care homes; (ii) military personnel not living in private accommodation; (iii) inpatients of psychiatric institutions; (iv) homeless people; and (v) prisoners. We attempted to obtain best estimates of the size of the population and alcohol consumption for each of these groups. Apart from missing populations, we investigated possible under-coverage in two groups of particular interest: students (as transient living arrangements may make non-response more likely and the weighting procedure does not consider student status) and people with alcohol dependency. The data sources and the assumptions required when adding missing populations and adjusting under-represented populations are presented elsewhere (Meier et al, 2011). Please note most adjustments are based on Scottish specific data sources or Scottish records in the identified data source. One final adjustment to account for the survey bias relates to the assumed size of a standard drink of off-trade spirit based on two Scottish studies (Gill et al, 2004; MacAskill et al, 2007) which found that on average people poured more than 2 units of spirit at home when asked to pour a drink of the size they would normally consume at home. The standard assumption in the GLF/GHS and other surveys is that a standard drink of spirits consumed in the off-trade contains one unit of alcohol. Table 2.11 illustrates the adjustments to the SHeS 2010 data. It shows that the per capita consumption increases from 11.5 units to 19.6 units per week and the population size represented in the survey increases by 331,000 people after all the adjustments. The factors which have the biggest effect on per capita consumption are the adjustment of dependent drinkers and assumption of pouring size for off-trade spirits. The inclusion of missing populations and the adjustment of students have limited impact on survey per capita consumption. These findings are very similar to those seen when we adjusted the GLF/GHS for England using the same methodology (Meier et al, 2011), 42

43 Units per week Effect size on Population per person consumption size (16+) Original SHeS ,229,548 Missing populations Care homes ,059 Military ,191 Mental health institutions ,227 Homeless ,270 Prisoners ,074 Total 0.27 Under-coverage Students ,470 Dependent drinkers ,238 Total 4.68 Assumed beverage size (off-trade spirit) 3.17 Total effect 8.12 New SHeS ,560,078 Table 2.11: Adjustments of SHeS Calibration of survey consumption to per capita sales data Even after adjustments, there remains a gap between the revised SHeS (19.64 units per week) and the Nielsen estimates (22.72 units per week). We performed an adjustment based on the method proposed by Rehm et al (2011) in order to shift survey data to 90% of the aggregate per capita data. Adjustments to 90% rather than 100% of sales data were recommended to allow for the uncertainty about the degree of underreporting in medical epidemiological studies, from which we derived the risk functions used in the model. A gamma distribution is fitted to the empirical distributions from the survey for each defined gender/age subgroup. A single adjustment factor was calculated for each alcoholic beverage type and applied to all subgroups (see Table 2.12). Beverage Nielsen sales data 2010 (units per week) 90% of Nielsen sales data (units per week) Revised SHeS 2010 (units per week) Adjustment factor Beer/cider Wine Spirit All Table 2.12: Calibration of the revised SHeS 2010 consumption to 90% of Nielsen sales data 43

44 The adjustment factor was then applied to give the new means; while the new standard deviation was calculated using an equation (see Equation 1) derived empirically from international data via regression analyses (Rehm et al, 2011). Equation 1: where represents the shifted sample mean, and sex was coded 0 for men and 1 for women Comparison of estimates Figure 2.19 and 2.20 compare the average consumption between the original SHeS 2010 and the alternative baseline consumption, by beverage type and separately for men and women. Figure 2.21 and 2.22 compare the average consumption between the original and alternative baseline consumption, by age group and separately for men and women. Detailed results of the sensitivity analysis are presented in Section and in the appendices. Figure 2.19: Comparison of average consumption across 4 beverage types for men (16+ years) between the base case and the alternative accounting for under-recording 44

45 Figure 2.20: Comparison of average consumption over 4 beverage types for women (16+ years) between the base case and the alternative accounting for under-recording Figure 2.21: Comparison of average consumption by age group for men (16+ years) between the base case and the alternative accounting for under-recording 45

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